bb2ca41630
This is a reland of https://chromium-review.googlesource.com/c/v8/v8/+/2744138. It shortens the runtime of the Copy and EnumerationOrder tests in cctest/test-swiss-name-dictionary-csa for TSAN and CFI builds, as compared to the original version. Original description: This CL is part of a series that adds the C++ implementation of SwissNameDictionary, a deterministic property backing store based on Swiss Tables. This CL adds the actual tests for SwissNameDictionary, defined in test-swiss-name-dictionary-shared-tests.h, using the infrastructure in test-swiss-name-dictionary-infra.[h|cc]. Bug: v8:11388 Change-Id: Ia3f83f6e27be80bfdd63c2cb868638dc90d24cbc Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2778416 Commit-Queue: Frank Emrich <emrich@google.com> Reviewed-by: Igor Sheludko <ishell@chromium.org> Cr-Commit-Position: refs/heads/master@{#73589}
140 lines
5.2 KiB
C++
140 lines
5.2 KiB
C++
// Copyright 2021 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "test/cctest/test-swiss-name-dictionary-infra.h"
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namespace v8 {
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namespace internal {
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namespace test_swiss_hash_table {
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namespace {
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std::vector<PropertyDetails> MakeDistinctDetails() {
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std::vector<PropertyDetails> result(32, PropertyDetails::Empty());
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int i = 0;
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for (PropertyKind kind : {PropertyKind::kAccessor, PropertyKind::kAccessor}) {
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for (PropertyConstness constness :
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{PropertyConstness::kConst, PropertyConstness::kMutable}) {
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for (bool writeable : {true, false}) {
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for (bool enumerable : {true, false}) {
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for (bool configurable : {true, false}) {
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uint8_t attrs = static_cast<uint8_t>(PropertyAttributes::NONE);
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if (!writeable) attrs |= PropertyAttributes::READ_ONLY;
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if (!enumerable) {
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attrs |= PropertyAttributes::DONT_ENUM;
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}
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if (!configurable) {
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attrs |= PropertyAttributes::DONT_DELETE;
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}
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PropertyAttributes attributes =
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static_cast<PropertyAttributes>(attrs);
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PropertyDetails details(kind, attributes,
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PropertyCellType::kNoCell);
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details = details.CopyWithConstness(constness);
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result[i++] = details;
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}
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}
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}
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}
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}
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return result;
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}
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} // namespace
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// To enable more specific testing, we allow overriding the H1 and H2 hashes for
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// a key before adding it to the SwissNameDictionary. The necessary overriding
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// of the stored hash happens here. Symbols are compared by identity, we cache
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// the Symbol associcated with each std::string key. This means that using
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// "my_key" twice in the same TestSequence will return the same Symbol
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// associcated with "my_key" both times. This also means that within a given
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// TestSequence, we cannot use the same (std::string) key with different faked
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// hashes.
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Handle<Name> CreateKeyWithHash(Isolate* isolate, KeyCache& keys,
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const Key& key) {
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Handle<Symbol> key_symbol;
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auto iter = keys.find(key.str);
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if (iter == keys.end()) {
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// We haven't seen the the given string as a key in the current
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// TestSequence. Create it, fake its hash if requested and cache it.
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key_symbol = isolate->factory()->NewSymbol();
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// We use the description field to store the original string key for
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// debugging.
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Handle<String> description =
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isolate->factory()->NewStringFromAsciiChecked(key.str.c_str());
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key_symbol->set_description(*description);
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CachedKey new_info = {key_symbol, key.h1_override, key.h2_override};
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keys[key.str] = new_info;
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if (key.h1_override || key.h2_override) {
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uint32_t actual_hash = key_symbol->hash();
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int fake_hash = actual_hash;
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if (key.h1_override) {
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uint32_t override_with = key.h1_override.value().value;
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// We cannot override h1 with 0 unless we also override h2 with a
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// non-zero value. Otherwise, the overall hash may become 0 (which is
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// forbidden) based on the (nondeterminstic) choice of h2.
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CHECK_IMPLIES(override_with == 0,
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key.h2_override && key.h2_override.value().value != 0);
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fake_hash = (override_with << swiss_table::kH2Bits) |
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swiss_table::H2(actual_hash);
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}
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if (key.h2_override) {
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// Unset 7 bits belonging to H2:
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fake_hash &= ~((1 << swiss_table::kH2Bits) - 1);
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uint8_t override_with = key.h2_override.value().value;
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// Same as above, but for h2: Prevent accidentally creating 0 fake hash.
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CHECK_IMPLIES(override_with == 0,
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key.h1_override && key.h1_override.value().value != 0);
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CHECK_LT(key.h2_override.value().value, 1 << swiss_table::kH2Bits);
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fake_hash |= swiss_table::H2(override_with);
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}
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// Ensure that just doing a shift below is correct.
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static_assert(Name::kNofHashBitFields == 2, "This test needs updating");
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static_assert(Name::kHashNotComputedMask == 1,
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"This test needs updating");
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static_assert(Name::kIsNotIntegerIndexMask == 2,
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"This test needs updating");
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// Prepare what to put into the hash field.
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uint32_t hash_field = fake_hash << Name::kHashShift;
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CHECK_NE(hash_field, 0);
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key_symbol->set_raw_hash_field(hash_field);
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CHECK_EQ(fake_hash, key_symbol->hash());
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}
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return key_symbol;
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} else {
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// We've seen this key before. Return the cached version.
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CachedKey& cached_info = iter->second;
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// Internal consistency check: Make sure that we didn't request something
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// else w.r.t. hash faking when using this key before. If so, the test case
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// would make inconsistent assumptions about how the hashes should be faked
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// and be broken.
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CHECK_EQ(cached_info.h1_override, key.h1_override);
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CHECK_EQ(cached_info.h2_override, key.h2_override);
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return cached_info.key_symbol;
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}
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}
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const std::vector<PropertyDetails> distinct_property_details =
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MakeDistinctDetails();
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} // namespace test_swiss_hash_table
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} // namespace internal
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} // namespace v8
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